Epigenetic scarring of exhausted T cells hinders memory differentiation upon eliminating chronic antigenic stimulation

Exhausted CD8 T cells (TEX) are a distinct state of T cell differentiation associated with failure to clear chronic viruses and cancer. Immunotherapies such as PD-1 blockade can reinvigorate TEX cells, but reinvigoration is not durable. A major unanswered question is whether TEX cells differentiate into functional durable memory T cells (TMEM) upon antigen clearance. Here, using a mouse model, we found that upon eliminating chronic antigenic stimulation, TEX cells partially (re)acquire phenotypic and transcriptional features of TMEM cells. These ‘recovering’ TEX cells originated from the T cell factor (TCF-1+) TEX progenitor subset. Nevertheless, the recall capacity of these recovering TEX cells remained compromised as compared to TMEM cells. Chromatin-accessibility profiling revealed a failure to recover core memory epigenetic circuits and maintenance of a largely exhausted open chromatin landscape. Thus, despite some phenotypic and transcriptional recovery upon antigen clearance, exhaustion leaves durable epigenetic scars constraining future immune responses. These results support epigenetic remodeling interventions for TEX cell–targeted immunotherapies. Wherry and colleagues examine whether exhausted T cells (TEX) can differentiate into functional memory T cells (TMEM) when chronic antigen is withdrawn. Using the chronic LCMV infection mouse model, they show that ‘recovering’ TEX cells (REC-TEX) only partially recover immunophenotypic and functional characteristics of TMEM cells. The epigenomic status of REC-TEX cells more closely resembles that of TEX cells, and, upon rechallenge, the REC-TEX cells were still compromised in their ability to respond to virus.